Providing dynamic content in context of particular equipment

ABSTRACT

The present disclosure relates to a method that includes receiving input of a search term for a query and identifying a key mapped to the search term. The method further includes identifying a results page template and default data that correspond to the key, obtaining structured data that is associated with the equipment from a data source storing the structured data, and obtaining unstructured data that is associated with the equipment from a data source storing the unstructured data. The method further includes providing a results page via a graphical user interface (GUI), the results page including the results page template populated with the default data and equipment related results for the query. The equipment related results include the structured data that is associated with the equipment and the unstructured data that is associated with the equipment.

RELATED APPLICATIONS

This application is a continuation application of U.S. patentapplication Ser. No. 13/770,945, filed on Feb. 19, 2013, which claimsthe benefit of U.S. Provisional Application No. 61/602,495 filed Feb.23, 2012, the entire contents of both are hereby incorporated byreference.

TECHNICAL FIELD

Implementations of the present invention relate to providing datagenerally, and more particularly, to providing dynamic content incontext of particular equipment.

BACKGROUND

A significant number of equipment, such as manufacturing equipment,military equipment, etc. may be operating at various sites (e.g.,customer sites, mission sites, etc.). One or more equipment mayexperience an operational problem and an onsite customer/field engineermay work with the problematic equipment to address the issue. Theengineer may wish to access data about the equipment, such as equipmentmanuals, data about processes that run on the equipment, maintenanceprocedures, spares information, repair information, data about productsproduced by the equipment, safety information, etc. for troubleshootingpurposes. Accurate equipment information is often difficult to find andmay lead to greater equipment downtime, incorrectly ordered equipmentparts, and inefficient use of the engineer's time due to the lack of astandardized search mechanism and service vocabulary. Customer/fieldengineers typically spend 20% of their time looking for informationbecause they are unaware of the data sources of the information,searching through multiple data sources, and/or continually manuallyrefining a search to attempt a more focused effort. Often times,customer/field engineers encounter search results of hundreds of pagesof documents, which may not be relevant to equipment problem.

BRIEF DESCRIPTION OF THE DRAWINGS

Various implementations of the present invention will be understood morefully from the detailed description given below and from theaccompanying drawings of various implementations of the invention.

FIG. 1 is a block diagram illustrating system architecture, according tosome embodiments.

FIG. 2 is a block diagram of one implementation of a context module.

FIG. 3 illustrates an example user interface (UI) for providing dynamicequipment related content via an example ‘Parts View’ results page,according to some implementations.

FIG. 4 is a flow diagram of an implementation of a method for providingdynamic equipment related content in context of a particular equipmentrelated component.

FIG. 5 is a flow diagram of an implementation of a method for providingcollaborative equipment related content in context of a particularequipment related component.

FIG. 6 illustrates an example UI for providing dynamic equipment relatedcontent in context via an example ‘Product View’ results page, accordingto some implementations.

FIG. 7 illustrates an example UI for providing dynamic equipment relatedcontent in context via an example ‘Equipment View’ results page,according to some implementations.

FIG. 8 illustrates an example UI for providing dynamic equipment relatedmedia content in context via an example results page, according to someimplementations.

FIG. 9 illustrates an example UI for providing dynamic equipment relatedparts content in context via an example results page, according to someembodiments.

FIG. 10 illustrates an example UI for providing dynamic equipmentrelated user-provided content in context via an example results page,according to some implementations.

FIG. 11 illustrates an example computer system.

DETAILED DESCRIPTION

Implementations of the invention are directed to a method and system forproviding dynamic content in context of particular equipment. A computersystem receives input of a search term for a query. The query may be forinformation for, for example, and not limited to, the particularequipment (e.g., military equipment, manufacturing equipment), anengineering design of a product that is manufactured using theparticular equipment, an engineering design of the particular equipment,a process that is run on the particular equipment, a manufacturingprocess run on the particular equipment, a maintenance procedure for theparticular equipment, spares for particular equipment, repair ofparticular equipment, or one or more products associated with theequipment.

The search term is related to equipment. For example, the search termmay be a part number, a description of a symptom related to failingequipment, a product name, or a process name. The computer systemidentifies a key that corresponds to the search term and dynamicallyobtains content that is associated with the key from multiple datasources. Examples of data sources can include, and are not limited to, apublishing system, a document management system, an email system, arepository system, an engineering design system, a web server, anapplication server, a parts management system, an inventory system, anordering system, a manufacturing system, a production system, etc.

The data sources can store structured data that is associated with theequipment. Structured data is data related to some form, such as, andnot limited to, database data, form data, field-related data. The datasources can store unstructured data that is associated with theequipment. Unstructured data is data that is not associated with anyform, such as, and not limited to, documents, user-provided content indiscussion threads, forums, feedback, etc. The computer systemautomatically populates a results page template associated with the keywith the content from the data sources to create a results page thatincludes the equipment related results for the query.

Implementations increase user (e.g., field engineers, customerengineers, product engineers, etc.) productivity by dynamicallyproviding relevant information in context of particular equipment tomake it more efficient for users to locate information. For example,when a user searches for information for Part No. 1235 of Equipment XYZ,implementations may provide a results page that includes an image of thePart No. 1235, a description of Part No. 1235, inventory data for PartNo. 1235, ordering information for Part No. 1235, average delivery timefor Part No. 1235, a bill of materials for Part No. 1235, user feedbackfor Part No. 1235, discussion threads discussing Part No. 1235, Noticesfor Part No. 1235, etc. Implementations can add context to theinformation and can provide information to users based on the addedcontext. Context hereinafter refers to aggregating information, fromvarious data sources, which have been classified as being related toeach other into a group.

FIG. 1 illustrates exemplary system architecture 100 in whichembodiments can be implemented. The system architecture 100 includes oneor more machines 115, one or more data source systems 175 storingcontent data in one or more data stores 112, and one or more clientmachines 102 connected via a network 120. Network 120 may be a publicnetwork (e.g., the Internet), a private network (e.g., a local areanetwork (LAN) or wide area network (WAN)), or a combination thereof.

The machines 115 and client machines 102 can be coupled to one or moredata source systems 175. The data source systems 175 can include one ormore machines coupled to one or more data stores 112. The data sourcesystems 175 can be systems that are related to a production environment,such as a manufacturing plant and a fulfillment center. Examples of datasource systems 175 can include, and are not limited to, a publishingsystem, a document management system, an email system, a repositorysystem, an engineering design system, a web server, an applicationserver, a parts management system, an inventory system, an orderingsystem, a manufacturing system, a production system, etc. Examples ofcontent data that is stored in the one or more data stores 112 caninclude, and are not limited to, content from a publishing system,corporate documents, e-mail, manufacturing specifications, partdrawings, schematics, internal website content, images, video,presentations, parts management data, inventory data, ordering data,procedures, process data, discussion forum data, etc.

The data stores 112 can be persistent storage that is capable of storingcontent data for various data source systems 175. As will be appreciatedby those skilled in the art, in some embodiments data stores 112 are anetwork-attached file server, while in other embodiments data stores 112are some other type of persistent storage such as an object-orienteddatabase, a relational database, and so forth.

The client machines 102 can be personal computers (PC), laptops, mobilephones, tablet computers, or any other computing devices. The clientmachines 102 may run an operating system (OS) that manages hardware andsoftware of the client machines 102. The client devices 102 can run anoperating system (OS) that manages hardware and software of the clientdevices 102. An application 180 can run on the client devices 102 (e.g.,on the OS of the client devices). An application 180 can be any type ofapplication including, for example, a web application, a desktopapplication, a browser application, a mobile device application (e.g.,smart phone application, media player application, tablet deviceapplication, etc.) etc. Examples of a mobile device can include, and arenot limited to, phones, tablet computers, media players, personaldigital assistants, etc. The application 180 can issue data searchqueries to the application server 140.

The machines 115 can include an application server 140 and a contextmodule 106. In one implementation the context module 106 is part of theapplication server 140. In another implementation, the context module106 can be separate from the application server 140 and can be executedto interface with the application server 140. In one implementation, theapplication server 140 and context module 106 run on different machines.The machines 115 can host an application server 140 to provide webapplications, mobile device applications, desktop applications, and data(e.g., content data) for the applications 180. Machines 115 may berackmount servers, router computers, personal computers, laptopcomputers, tablet computers, desktop computers, media centers, or anycombination of the above.

The context module 106 can add context to the content data in the datastores 112 by classifying the content data and/or adding semantics tothe content data. The context module 106 can classify the content databy associating individual content data with one or more predefinedtopics. The topics can be user (e.g., system administrator) defined. Thetopics can be manufacturing related topics. Examples of topics caninclude, and are not limited to, product, equipment, part, process,problem, symptom, etc. The topics can include sub-topics. For example,the topic of equipment can include specific equipment as sub-topics. Thepredefined topics and sub-topics can be updated.

The context system 106 can add semantics to the content data byidentifying relationships amongst the content data, creating connectionsbetween the related content data, and associating the individual contentdata and the relationships between the content data with possible searchterms. The context system 106 may receive one or more search terms andcan use the classifications of the content data and the semantics thatwere added to the content data to dynamically provide a graphical userinterface (GUI) that includes the relevant search results from thecontent data based on the context (e.g., classification, semantics).

The application server 140 may receive data queries from the clientmachines 102. The context module 106 can use the context (e.g.,classification, semantics) that was added to the content data in thedata stores 112 to find content data that satisfies the data query. Thecontext module 106 can create a results page 185 and/or provide data fora results page 185 which the application server 140 may serve to theclient 102 making the request. In one implementation, the application180 can render the results page 185 that includes the content data thatsatisfies the data query on the client machine 102. A data query may be,for example, based on search terms that describe, for example, and notlimited to, product name, part number, equipment, problem, symptoms,etc.

In one embodiment, the application server 140 provides a searchapplication for querying the content data. For example, the application180 can be a search portal for users 101 (e.g., customer engineers,field engineers, product engineers, etc.) to search for informationrelating to products, parts, equipment, etc. for troubleshooting parts,equipment, material, etc. related to the manufacturing of a product. Inone embodiment, an application 180 is provided by and maintained withina service provider environment and provides services relating to thecontent data. For example, a service provider may maintain applicationservers 140 to provide a search portal for troubleshooting issues thatmay be related to manufacturing a product.

A user 101, such as a field engineer, customer engineer, productengineer, etc., can use an application 180 (e.g., browser) to accesscontent data via an application server 140 and the context module 106.The context module 106 can provide an initial application page (e.g.,web page, mobile application page, etc.) to receive one or more keywordsfrom a user 101 for a query. The context module 106 can provide aresults page 185 (e.g., results web page, mobile application resultspage, etc.) of search results based on the keywords and the contextadded to the content data. The results page 185 can contain content datathat is relevant to the keywords. The context system 106 can identifywhich content data is relevant to the keywords based on taxonomy,classification, tagging, and semantics already performed by and/or addedby the context module 106 on the content data.

For example, the user 101 may wish to troubleshoot a particularmanufacturing part and may request a search based on a part number forthe manufacturing part. The context module 106 can automaticallyidentify, via the application server 140, the content data that relatesto the manufacturing part in a results page 185, which can be renderedby an application 180. The context module 106 can dynamically populatethe results page 185 with the identified content data, such as, and notlimited to, an image of the manufacturing part from one of the datastores 112, a Bill of Materials (BOM) relating to the manufacturing partfrom one of the data stores 112, a description of the manufacturing partfrom one of the data stores 112, and data describing the currentinventory and average delivery time for the manufacturing part, etc. Theresults page 185 can also include documents obtained from one or more ofthe data stores 112, discussion threads from one or more of the datastores 112, etc. Implementations of a subset of content data that is ina results page based on the context added to the content data isdescribed in greater detail below in conjunction with FIG. 3 and FIGS.6-10.

A data store 112 can be a persistent storage unit. A persistent storageunit can be a local storage unit or a remote storage unit. Persistentstorage units can be a magnetic storage unit, optical storage unit,solid state storage unit, electronic storage unit (main memory) orsimilar storage unit. Persistent storage units can be a monolithicdevice or a distributed set of devices. A ‘set’, as used herein, refersto any positive whole number of items.

FIG. 2 is a block diagram of one embodiment of a context module 200. Inone implementation, the context module 200 is the same as the contextmodule 106 of FIG. 1. The context module 200 can include a taxonomysub-module 201, a classification sub-module 203, a content managementsub-module 205, a search sub-module 207, a preview sub-module 209, and auser interface (UI) sub-module 211.

The context module 200 can be coupled to one or more data stores 240that store content data 241. Examples of content data 241 can include,and are not limited to, published content from a publishing system,corporate documents from a document management system, content fromemail systems, manufacturing documents (e.g., manufacturingspecifications), design documents (e.g., part drawings, schematics),internal website content, content from file sharing repositories,content from image and/or video repositories, content from a partsmanagement system, inventory system, ordering system, procedures,process data from production systems, user provided content (e.g.,content from discussion forums, uploaded content), etc. The content data241 can include structured content (e.g., database data) andunstructured content (e.g., documents, user-provided content indiscussion threads, forums, feedback, etc.).

The context module 200 can include the taxonomy sub-module 201,classification sub-module 203, and content management sub-module 205 topre-process the content data 241 in the one or more data stores 240. Inone implementation, the taxonomy sub-module 201, classificationsub-module 203, and content management sub-module 205 may be separatefrom the context module 200 and may be executed to interface with thecontext module 200. Pre-processing of the content data 241 can includerouting the content data 241 to appropriate data stores 240, classifyingand/or tagging the content data 241, publishing the content data 241,etc.

The taxonomy sub-module 201 can determine the subject for the individualcontent data 241 and determine relationships that are based on thetopics (e.g., part, product, process, equipment) between the individualcontent data. The taxonomy sub-module 201 can create term data 243 thatincludes a list of terms to be used by the classification module 203 toclassify the content data. The taxonomy sub-module 201 can receive userinput and/or import terms from other systems (e.g., part number from apart management system) to create the term data 243. The term data 243can be stored in the data store 240.

The classification sub-module 203 can use the term data 243 andclassification rules 245 stored in the data store 240 to create metadata247 for the content data 241. The metadata 247 can include keys 249 tobe used to associate the content data 241 with search terms for a query.The classification rules 245 can be user defined rules. Theclassification module 203 can receive user input defining and/orchanging the classifications rules 245. Upon applying new rules orchanges to rules, the classification module 203 can validate theclassification rules 245 by running through a corpus of content data 241without affecting the metadata 247. Following verification, the changescan be accepted by a user (e.g., system administrator) and applied tothe corpus in production.

The classification sub-module 203 can work with the content managementmodule 205 and the search sub-module 207 to ensure that content data241, which is not published or maintained by the content managementsub-module 205, can be classified such that the search sub-module 207can also provide a consistent set of metadata 247 and security acrossall sources of content data 241. For example, content that is stored ina database of parts or service records can be metatagged with the sametags as those in the content management repository without having tomodify those systems to accept the metadata. The classificationsub-module 203 can work with the content management sub-module 205 toensure that when new content data 241, which is published via a processand workflow managed by the content management sub-module 205, are addedto a publication repository, the new content data 241 can be secured andmetatagged appropriately.

The classification sub-module 203 can use the metadata 247 to launchworkflow processes. The classification sub-module 203 can also allow forworkflows to be generated based on the specific rules (e.g., sensitivedata rules) applied. For example, a field engineer uploads a documentwhich contains a vague reference to “Customer XYZ” as the manufacturerof the CPU (central processing unit) on an imaging computer. Theclassification sub-module 203 could alert the field engineer that asensitive data rule was potentially broken by the reference to “CustomerXYZ” and launch a workflow to, for example, have someone else review theuploaded document, prevent the content from being uploaded and frombeing made available to users, sanitize the document, etc.

The classification sub-module 203 can generate a report and provide thereport via user interface (UI) 202 generated by the user interfacesub-module 211. The report can describe classification activities,classification rules analysis, etc.

The content management sub-module 205 can create and publish documentsbased on user input. The published documents can be stored as contentdata 241 in the data store 240. The published documents, can include,and are not limited to, word processing files, spreadsheets,presentation files, XML files, etc. The content management sub-module205 can implement and manage workflows for the creation, review,approval, and publication processes to produce the published documents.The documents managed by the content management sub-module 205 can bestored with corresponding metadata 247 in the data store 240, which canbe accessible by the classification sub-module 203 and the searchsub-module 207.

The metadata 247 can be also be used by the search sub-module 207. Thesearch sub-module 207 can search the content data 241 as well as datanot already stored as part of the content data 241. The searchsub-module 207 can create metadata 247 for any data being searched. Thesearch sub-module 207 can use search logs to train and tune the searchsub-module 207.

The user interface (UI) sub-module 211 can provide a user interface 202to present one or more results pages 285,290 to users. The UI 202 can bea graphical user interface. The UI sub-module 211 can access the termdata 243, for example, generated by the taxonomy sub-module 201, themetadata 247, for example, generated by the classification sub-module203 and/or search sub-module 207, metadata from the source repository(e.g., data store 240) (where applicable), and the content data 241 togenerate a results page 285,290 and populate the results page 285,290with relevant data.

The UI sub-module 211 can present a query page (e.g., query web page,query mobile application page) to receive user input, for example, ofone or more search terms for a query. The query can be a productmanufacturing related query. For example, the search terms may be amanufacturing part number, “Part #123-45-6789” of a part that is used tomanufacture a product. The UI sub-module 211 can use key mapping data261 that is stored in a data store 260 to identify a key 249 thatcorresponds to the search terms. The key mapping data 261 can be amapping of keys to various search terms. For example, the search termsmay be “Part #123-45-6789,” “Part No. 123456789,” or “Part 12-3456-789”which may be mapped to the same key 249 “Part-123456789” in the keymapping data 261. The key mapping data 261 can be created by theclassification sub-module 203. The classification sub-module 203 canspecify which keys 249 map to which search terms based on user (e.g.,system administrator) input, classifier techniques, etc.

The search sub-module 211 can use the key 249 to determine whether thereis a results page 285,295 that already exists and corresponds to the key249. A cache store 280 can store previously created results pages 285. Apersistent data store 290 can also store previously created resultspages 295. The UI sub-module 211 can access page tracking data 263 thatis stored in a data store 260 to determine whether there is a resultspage 285,295 that corresponds to the key 249 in the cache store 280and/or data store 290. The page tracking data 263 can be a list of pageidentifies and corresponding keys 249 and page locations. For example,the page tracking data 263 may be a list of part results pages, productresults pages, and equipment results pages that were already created bythe UI sub-module 211. The UI sub-module 211 can update the pagetracking data 263 when results pages 285,295 are created and stored.

If there is a results page 285,295 that already exists and correspondsto the key 249, the UI sub-module 211 can present the results page285,295 to a user via the UI 202. If there is not a results page 285,295that already exists, the UI module 211 can create a results page 285,295for a key 249 and provide the results page 285,295 to a user via the UI202. The UI sub-module 211 can use a results page template 265 that isstored in the data store 260 to create a results page for a key. Theresults page templates 265 can be predefined user-defined templates. Thekey mapping data 261 can map the key 249 to a topic type (e.g., product,part, equipment, process, etc.). For example, the key 249 may be“Part-123456789” and the topic type may be “Part”. The templates 265 canbe associated with a topic type and the UI sub-module 211 can identifywhich template 265 to use based on the key and topic type. For example,the UI sub-module 211 may use a “Part” template for the key 249“Part-123456789.”

The UI sub-module 211 can populate a template 265 with default data 267that is associated with the key 249 and is stored in the data store 260.The default data 265 can include, for example, and not limited to,images, part number, part name, part description. The default data 265can be user provided data. The default data 265 can be pointers tocontent data 241 for, for example, images, part number, part name, partdescription, etc. that correspond to the key 249.

The UI sub-module 211 can dynamically populate a template 265 withcontent data 241 that is relevant to the key 249. The search module 207can identify which content data 241 is associated with the key 249(e.g., Part-123456789) by examining the metadata 247 for the contentdata 241, and the UI module 211 can populate the template 265 with therelevant content data 241. The template 265 populated with default data267 and content data 241 creates a results page 285,295 for the key 249.The UI sub-module 211 can store the created results page 285,295 in acache store 280 and/or a persistent data store 290. The results page285,295 can include relevant unstructured data, such as document resultsbased on the search module 207. The results page 285,295 can includerelevant structured data, such as data from a database in anothersystem. For example, the results page 285,295 can include structureddata from a database in an Order Management System, such as the currentinventory status, the stocking levels, average delivery time, etc.

In one implementation, instead of having to present an entire filestoring content data via the UI 202, the preview sub-module 209 cancreate a preview user interface (e.g., page, pop-up window, slidingpanel, etc.) that includes the most relevant sections of a file (e.g.,document) storing content data 241. The preview sub-module 209 candetermine the relevant sections based on the term data 243. The UIsub-module 211 can present the preview UI via the UI 202. A preview UIcan help with client systems that may have lower bandwidth.

The results page 285,295 can be edited by a user. The UI module 211 canreceive user input to change the content in the results page 285,295.For example, a user may upload an image of a defective Part-123456789,provide a rating, feedback, and/or comments about Part-123456789, add acomment in a forum for Part-123456789, add a comment in a discussionthread about Part-123456789, etc. The UI module 211 can store theuser-provided content as part of the content data 241 in the data store240. The classification module 203 can classify and/or tag theuser-provided content.

The UI module 211 can access user access data 269 that is stored in adata store to control which users have access to the results pages285,295 and the type of access a user may have.

The data store 240,260,290 can be a persistent storage unit. Apersistent storage unit can be a local storage unit or a remote storageunit. Persistent storage units can be a magnetic storage unit, opticalstorage unit, solid state storage unit, electronic storage unit (mainmemory) or similar storage unit. Persistent storage units can be amonolithic device or a distributed set of devices. A ‘set’, as usedherein, refers to any positive whole number of items.

FIG. 3 illustrates an example user interface (UI) 300 for providingdynamic content in context via an example “Parts View” results page 350,according to some embodiments. One implementation of an example “ProductView” results page is described in greater detail below in conjunctionwith FIG. 6. One implementation of an example “Equipment View” resultspage is described in greater detail below in conjunction with FIG. 7.

The results page 350 can be a web page. For any topic (e.g., part,product, equipment, process, etc.), the results page can include defaultdata that corresponds to a key (e.g., a particular part number).Examples, of default data can include, for example, an image 301, anidentifier 303 (e.g., part name, product identifier, equipmentidentifier, process name), a number 305, if applicable, such as a partnumber, and a description 307. For any topic, the results page caninclude unstructured data. For example, the results page 350 can includedocuments in a first tab (e.g., search results 317) in the results page350 and filtering facets (e.g., facet 313), according to someimplementation. Filtering facets allow exploration of content data byapplying multiple filters.

The results page 350 can dynamically include links to the relatedproducts 321 and related parts 323 that are most relevant to theparticular part based on the search results 317. The links for therelated products 321 and the related parts 323 are dynamically generatedusing the search results 317, which are in response to the query terms.The links can include a predefined number of links that represent themost relevant related products and related parts based on the searchresults 317.

The results page 350 can include a UI element 311 (e.g., tab) to receiveuser input (e.g., mouse click) to present data describing related parts,which can be parts that reference the particular part number, forexample, by a notification (e.g., safety notification, customerengineering news, bulletin, etc.). FIG. 9 illustrates an exemplary userinterface (UI) 900 for providing dynamic related parts content incontext via an exemplary results page 950, according to someembodiments. The data describing the related parts can include childparts data 901 that provide a list of child part numbers and additionaldata (e.g., image 905, description 907) of the corresponding child part.The data describing the related parts can include parent parts data 903that provide a list of parent part numbers and additional data of thecorresponding patent part. The results page 950 can include a UI element925 to receive user input to present a Parts View page for a selectedpart in the related parts data.

Returning to FIG. 3, the results page 350 can include information 315about the parts from a data source system, such as, an order managementsystem. The information 315 can include, for example, global inventory,consumption, quality statistics and change order information. Theresults page 350 can include UI elements for each search result toreceive user input of feedback, to receive user input to contact aperson (e.g., owner of a document), to receive user input of a rating,to receive user input of a request for a change, to receive user inputto create a new document (e.g., procedure, reference document) relatedto this part.

The content of the results page 350 can be changed, for example, basedon user input. The results page 350 can include a user interface element309 to receive user input to change the content.

The image 301 may be an image that has been tagged as the bestrepresentation associated with the particular part number. The bestrepresentation can be tagged based on user (e.g., system administrator)input. If no part image exists then, a “no image available” message canbe included in the results page 350. The results page 350 can presentadditional images that are associated with the part number. The resultspage 350 can receive user input indicating a selection of one of theimages as the best representation for the part number.

A “Parts View” results page can be associated with a specific partnumber and optionally a revision number for the part. The results page350 can display the information which relates to the particular partnumber. The results page 350 can include data describing other versionsof the part number, if applicable. The results page 350 can display eachrevision as a facet (e.g., facet 313) to further refine the search.

The results page 350 can include a UI element 325 (e.g., tab) to receiveuser input (e.g., mouse click) to present media data associated with thepart number. FIG. 8 illustrates an exemplary user interface (UI) 800 forproviding dynamic media content in context via an exemplary results page850, according to some embodiments. The media can include video, images,audio, etc.

Returning to FIG. 3, the results page 350 can include default resultsthat include sections, such as, and not limited to, ‘What's New’,‘Notices’, and ‘Most Viewed.’ The ‘What's New’ section can display themost recently updated procedures, notices and other document types. The‘Notices’ section can display all ‘Notice’ document types, such as‘Product Safety Notices’, ‘Bulletins’, ‘Customer Engineer News’, etc.,which apply to the part. The ‘Most Viewed’ section can display alldocument types which apply to the part by the number of recent viewings.

The results page 350 can include a UI element 327 (e.g., tab) to receiveuser input (e.g., mouse click) to present user-provided content (e.g.,user discussion, forum, threads, feedback, ratings, comments, etc). FIG.10 illustrates an exemplary user interface (UI) 1000 for providingdynamic user-provided content in context via an exemplary results page1050, according to some embodiments.

FIG. 4 is a flow diagram of an embodiment of a method 400 for providingdynamic manufacturing-related content with relationship context. Method400 can be performed by processing logic that can comprise hardware(e.g., circuitry, dedicated logic, programmable logic, microcode, etc.),software (e.g., instructions run on a processing device), or acombination thereof. In one embodiment, method 400 is performed by thecontext module 106 hosted by a machine 115 of FIG. 1.

At block 401, processing logic receives input of a search term for aquery. The query may be, for example, and not limited to, amanufacturing related query, an engineering design related query, anequipment (e.g., military equipment, manufacturing equipment) relatedquery, a service related query, etc. For example, a manufacturingrelated query may be a query for information for a product beingmanufactured, a manufacturing part, manufacturing process, manufacturingequipment, engineering design related to the manufacturing, etc. Theinput can be user (e.g., customer engineer, field engineer, technician,etc.) input. Examples of input can include, and are not limited to, oneor more keywords, a part number, a symptom of failed equipment, productname, process name, etc. For example, the input may be “Part #123-5”.

At block 403, processing logic identifies a key that corresponds to thesearch term. Processing logic can access key mapping data that is storedin a data store that is coupled to the context module to identify thekey that corresponds to the input. The key mapping data may map keys tovarious input. For example, the input may be “Part #123-5,” which can bemapped to the key “Part1235” in the key mapping data. The key can beused to create the results for the query.

At block 405, processing logic determines whether there is a resultspage that is already created for the key. Processing logic can accesspage tracking data that is stored in the data store to determine whetherthere is a results page that already exists for the key. The pagetracking data can be a list of page identifies, corresponding keys, andpage locations. For example, the page tracking data is a list of “Part”results pages, “Product” results pages, and “Equipment” results pagesthat were previously created for corresponding keys.

If there is a previously created results page for the key, processinglogic can locate the existing results page for the key based on thelocation in the page tracking data at block 407. The existing resultspage may be in a cache store that is coupled to the context module. Theresults page may be in persistent data store that is coupled to thecontext module.

If there is not an existing results page for the key (block 405),processing logic can identify a results page template that correspondsto the key at block 409. The key can be associated with a topic (e.g.,product, part, equipment, process, etc.). For example, the key“Part1235” may be associated with the topic “Part”. The templates can beassociated with a topic. The processing logic can identify which resultspage template has the same topic as the key. For example, processinglogic may use a “Part” template for the key “Part1235.”

At block 411, processing logic populates the results page template withdefault data that corresponds to the key. The default data can beassociated with one or more topics. The processing logic can identifywhich default data has the same topic as the key. The default data canbe stored in the data store. The default data can include, for example,and not limited to, one or more images, part number, part name, partdescription.

At block 413, processing logic identifies content that corresponds tothe key from the one or more data sources. The content can havemetadata, which can include a key, which matches the key thatcorresponds to the search terms. For example, the search term “Part#123-5” may be mapped to the key “Part1235”. Processing logic may searchthe metadata for the individual content data and may locate keys in themetadata for some of the individual content data that match “Part1235”.For example, an image of the Part No. 1235 in the content data may havethe key “Part1235” in its metadata, a description of Part No. 1235 inthe content data may have the key “Part1235” in its metadata, inventorydata for Part No. 1235 in the content data may have the key “Part1235”in its metadata, ordering information for Part No. 1235 in the contentdata may have the key “Part1235” in its metadata, average delivery timefor Part No. 1235 in the content data may have the key “Part1235” in itsmetadata, a bill of materials for Part No. 1235 in the content data mayhave the key “Part1235” in its metadata, user feedback for Part No. 1235in the content data may have the key “Part1235” in its metadata,discussion threads discussing Part No. 1235 in the content data may havethe key “Part1235” in its metadata, Notices for Part No. 1235 in thecontent data may have the key “Part1235” in its metadata, etc.

At block 413, processing logic dynamically obtains the content that isassociated with the key from the one or more data sources and populatesthe results page template with the content from the data sources atblock 415. At block 417, processing logic stores the created resultspage for the key and updates the tracking data based on the createdresults page at block 419. The results page can be stored, for example,in a cache. At block 421, processing logic provides the results page forthe key via a UI to the user.

FIG. 5 is a flow diagram of an implementation of a method for providingcollaborative content in context of particular equipment. Method 500 canbe performed by processing logic that can comprise hardware (e.g.,circuitry, dedicated logic, programmable logic, microcode, etc.),software (e.g., instructions run on a processing device), or acombination thereof. In one embodiment, method 500 is performed by thecontext module 106 hosted by a machine 115 of FIG. 1.

At block 501, processing logic receives user input of user-providedcontent to update a results page. Examples of user-provided content caninclude, and are not limited to, documents, images, videos, audio, forumcontributions, ratings, feedback, comments, thread discussioncontributions, etc. For example, the results page may be a ‘Part’results page and processing logic may receive input of an image for thepart, such as an image of a defective part. In another example, theresults page may be a ‘Part’ results page and processing logic mayreceive input of a video of how to install the part. In another example,an onsite customer engineer may be working with problematicmanufacturing equipment to address a problem, troubleshoot the equipmentto gather data, and determine some corrective action to resolve theproblem. The customer engineer may wish to share the information (e.g.,symptoms, corrective action, etc.) relating to this particular issuewith other customer engineers world-wide. Processing logic can receivethe user-provided content (e.g., symptoms, corrective action, etc.)uploaded by the customer engineer.

At block 503, processing logic classifies (e.g., tags) the content basedon the results page. For example, processing logic tags the image withthe part number that is associated with the particular ‘Part’ resultspage. The content is classified to become searchable by the contextmodule. At block 505, processing logic stores the user-provided contentin a data store that is coupled to the context module. At block 507,processing logic populates the results page with the user-providedcontent and provides the results page to a user at block 509.

FIG. 6 illustrates an exemplary user interface (UI) 600 for providingdynamic content in context via a results page 650, according to someembodiments. Results page 650 is an exemplary Product View results page,according to some embodiments. A “Product View” results page refers tothe class of goods sold, according to various implementations. An“Equipment View” results page, which is described in greater detailbelow in conjunction with FIG. 7, refers to a specific instance of agood, according to various implementations. For example, a “Product” maybe a particular make and model of a car. “Equipment View” may be for aninstance of the particular make and model of the car. The instance canbe different than other instances, for example, by identifier (e.g., VINNumber) owner, features, etc. A ‘Product view’ results page can beassociated with a product, based on for example, a predefined productidentifier. The results page 650 can display the information whichrelates to the particular product identifier.

The image 601 may be an image that has been tagged as the bestrepresentation associated with the particular product identifier. If noproduct image exists then, a ‘No Image Available’ message can beincluded in the results page 650. The results page 650 can presentadditional images that are associated with the product identifier. Theresults page 650 can receive user input indicating a selection of one ofthe images as the best representation for the product identifier.

The results page 650 can dynamically include links to the relatedproducts 609 and related parts 605 that are most relevant to theparticular product identifier based on the search results 611. The linksfor the related products 609 and the related parts 605 are dynamicallygenerated by the search results 611, which are in response to the queryterms. The links can include a predefined number of links that representthe most relevant related products and related parts based on the searchresults 611.

The results page 650 can include a UI element 625 (e.g., tab) to receiveuser input (e.g., mouse click) to present media data associated with theproduct identifier. The results page 650 can include data describingproduct options, such as sub-assemblies, chambers, etc., as facets 613to further refine the search. Other examples of facets 613 to furtherrefine the search can include information types, such as Procedures,Notices, Manuals, etc. The results page 650 can include a UI element 603(e.g., tab) to receive user input (e.g., mouse click) to present bill ofmaterials (BOM) data associated with the product identifier. The resultspage 650 can include a UI element 615 (e.g., tab) to receive user input(e.g., mouse click) to present user-provided content (e.g., userdiscussion, forum, threads, feedback, ratings, comments, etc) for theproduct identifier.

The results page 650 can include default results that include sections,such as, and not limited to, ‘What's New’, Notices, and ‘Most Viewed.’The ‘What's New’ section can display the most recently updatedprocedures, notices and other document types. The Notices section candisplays all Notice document types, such as Product Safety Notices,bulletins, customer engineer news, etc., which apply to the productidentifier. The Most Viewed section can display all document types whichapply to the product identifier by the number of recent viewings.

The results page 650 can include UI element 607 (e.g., drop down menu)to receive user input of user-provided content (e.g., discussioncontent, new document, new image) about the product. The results page650 can include UI elements for each search result to receive user inputof feedback, to receive user input to contact a person (e.g., owner of adocument), to receive user input of a rating, to receive user input of arequest for a change, to receive user input to create a new document(e.g., procedure, reference document) related to this productidentifier, which can start a publishing workflow depending on thecontributor's role.

FIG. 7 illustrates an exemplary user interface (UI) 700 for providingdynamic content in context via an exemplary ‘Equipment View’ resultspage 750, according to some embodiments. An ‘Equipment View’ resultspage can be associated with a particular equipment identifier. An‘Equipment View’ results page can be associated with actual equipmentthat resides in the field. An “Equipment View” results page refers to aspecific instance of a good, according to various implementations. Forexample, a “Product” may be a particular make and model of a car.“Equipment View” may be for an instance of the particular make and modelof the car. The instance can be different than other instances, forexample, by identifier (e.g., VIN Number) owner, features, etc. Theresults page 750 can display the information which relates to theparticular equipment identifier (e.g., VIN).

The image 701 may be an image that has been tagged as the bestrepresentation associated with the particular equipment identifier. Ifno equipment image exists then, a no image available message can beincluded in the results page 750. The results page 750 can presentadditional images that are associated with the equipment identifier. Theresults page 750 can receive user input indicating a selection of one ofthe images as the best representation for the equipment identifier.

The results page 750 can include one or more filtering facets 713, forexample, equipment components, such as chambers and sub-assemblies, tofurther refine the search. The results page 750 can include one or morefiltering facets 713, based on information type, such as Procedures,Notices, Manuals, etc., to further refine the search. The results page750 can include site specific procedures related to the equipmentidentifier.

The results page 750 can dynamically include links to the relatedproducts 709 and related parts 705 that are most relevant to theparticular equipment identifier based on the search results 711. Thelinks for the related products 709 and the related parts 705 aredynamically generated by the search results 711, which are in responseto the query terms. The links can include a predefined number of linksthat represent the most frequently related products and related parts inthe search results 711.

The results page 750 can include a UI element 725 (e.g., tab) to receiveuser input (e.g., mouse click) to present media data associated with theequipment identifier. The results page 750 can include a UI element 715(e.g., tab) to receive user input (e.g., mouse click) to present bill ofmaterials (BOM) data associated with the equipment identifier. Theresults page 750 can include a UI element 725 (e.g., tab) to receiveuser input (e.g., mouse click) to present user-provided content (e.g.,user discussion, forum, threads, feedback, ratings, comments, etc) forthe equipment identifier.

The results page 750 can include default results that include sections,such as, and not limited to, ‘What's New’, Notices, and ‘Most Viewed.’The ‘What's New’ section can display the most recently updatedprocedures, notices and other document types. The Notices section candisplays all Notice document types, such as Product Safety Notices,bulletins, customer engineer news, etc., which apply to the equipmentidentifier. The Most Viewed section can display all document types whichapply to the equipment identifier by the number of recent viewings.

The results page 750 can include UI element 707 (e.g., drop down menu)to receive user input of user-provided content (e.g., discussioncontent, new document, new image) about the equipment. The results page750 can include UI elements for each search result to receive user inputof feedback, to receive user input to contact a person (e.g., owner of adocument), to receive user input of a rating, to receive user input of arequest for a change, to receive user input to create a new document(e.g., procedure, reference document) related to this equipmentidentifier, which can start a publishing workflow depending on thecontributor's role.

FIG. 11 illustrates a diagram of a machine in the exemplary form of acomputer system 1100 within which a set of instructions, for causing themachine to perform any one or more of the methodologies discussedherein, may be executed. In alternative embodiments, the machine may beconnected (e.g., networked) to other machines in a LAN, an intranet, anextranet, or the Internet. The machine may operate in the capacity of aserver or a client machine in client-server network environment, or as apeer machine in a peer-to-peer (or distributed) network environment. Themachine may be a personal computer (PC), a tablet PC, a set-top box(STB), a Personal Digital Assistant (PDA), a cellular telephone, a webappliance, a server, a network router, switch or bridge, or any machinecapable of executing a set of instructions (sequential or otherwise)that specify actions to be taken by that machine. Further, while only asingle machine is illustrated, the term “machine” shall also be taken toinclude any collection of machines that individually or jointly executea set (or multiple sets) of instructions to perform any one or more ofthe methodologies discussed herein.

The exemplary computer system 1100 includes a processing device(processor) 1102, a main memory 1104 (e.g., read-only memory (ROM),flash memory, dynamic random access memory (DRAM) such as synchronousDRAM (SDRAM), double data rate (DDR SDRAM), or DRAM (RDRAM), etc.), astatic memory 1106 (e.g., flash memory, static random access memory(SRAM), etc.), and a data storage device 1118, which communicate witheach other via a bus 1130.

Processor 1102 represents one or more general-purpose processing devicessuch as a microprocessor, central processing unit, or the like. Moreparticularly, the processor 1102 may be a complex instruction setcomputing (CISC) microprocessor, reduced instruction set computing(RISC) microprocessor, very long instruction word (VLIW) microprocessor,or a processor implementing other instruction sets or processorsimplementing a combination of instruction sets. The processor 1102 mayalso be one or more special-purpose processing devices such as anapplication specific integrated circuit (ASIC), a field programmablegate array (FPGA), a digital signal processor (DSP), network processor,or the like. The processor 1102 is configured to execute instructions1122 for performing the operations and steps discussed herein.

The computer system 1100 may further include a network interface device1108. The computer system 1100 also may include a video display unit1110 (e.g., a liquid crystal display (LCD) or a cathode ray tube (CRT)),an alphanumeric input device 1112 (e.g., a keyboard), a cursor controldevice 1114 (e.g., a mouse), and a signal generation device 1116 (e.g.,a speaker).

The data storage device 1118 may include a computer-readable storagemedium 1128 on which is stored one or more sets of instructions 1122(e.g., software) embodying any one or more of the methodologies orfunctions described herein. The instructions 1122 may also reside,completely or at least partially, within the main memory 1104 and/orwithin the processor 1102 during execution thereof by the computersystem 1100, the main memory 1104 and the processor 1102 alsoconstituting computer-readable storage media. The instructions 1122 mayfurther be transmitted or received over a network 1120 via the networkinterface device 1108.

In one embodiment, the instructions 1122 include instructions for acontext module (e.g., context module 200 of FIG. 2) and/or a softwarelibrary containing methods that call a context system. While thecomputer-readable storage medium 1128 (machine-readable storage medium)is shown in an exemplary embodiment to be a single medium, the term“computer-readable storage medium” should be taken to include a singlemedium or multiple media (e.g., a centralized or distributed database,and/or associated caches and servers) that store the one or more sets ofinstructions. The term “computer-readable storage medium” shall also betaken to include any medium that is capable of storing, encoding orcarrying a set of instructions for execution by the machine and thatcause the machine to perform any one or more of the methodologies of thepresent invention. The term “computer-readable storage medium” shallaccordingly be taken to include, but not be limited to, solid-statememories, optical media, and magnetic media.

In the foregoing description, numerous details are set forth. It will beapparent, however, to one of ordinary skill in the art having thebenefit of this disclosure, that the present invention may be practicedwithout these specific details. In some instances, well-known structuresand devices are shown in block diagram form, rather than in detail, inorder to avoid obscuring the present invention.

Some portions of the detailed description have been presented in termsof algorithms and symbolic representations of operations on data bitswithin a computer memory. These algorithmic descriptions andrepresentations are the means used by those skilled in the dataprocessing arts to most effectively convey the substance of their workto others skilled in the art. An algorithm is here, and generally,conceived to be a self-consistent sequence of steps leading to a desiredresult. The steps are those requiring physical manipulations of physicalquantities. Usually, though not necessarily, these quantities take theform of electrical or magnetic signals capable of being stored,transferred, combined, compared, and otherwise manipulated. It hasproven convenient at times, for reasons of common usage, to refer tothese signals as bits, values, elements, symbols, characters, terms,numbers, or the like.

It should be borne in mind, however, that all of these and similar termsare to be associated with the appropriate physical quantities and aremerely convenient labels applied to these quantities. Unlessspecifically stated otherwise as apparent from the following discussion,it is appreciated that throughout the description, discussions utilizingterms such as “receiving”, “identifying”, “obtaining,” “populating,”“changing,” or the like, refer to the actions and processes of acomputer system, or similar electronic computing device, thatmanipulates and transforms data represented as physical (e.g.,electronic) quantities within the computer system's registers andmemories into other data similarly represented as physical quantitieswithin the computer system memories or registers or other suchinformation storage, transmission or display devices.

The present invention also relates to an apparatus for performing theoperations herein. This apparatus may be constructed for the intendedpurposes, or it may comprise a general purpose computer selectivelyactivated or reconfigured by a computer program stored in the computer.Such a computer program may be stored in a computer readable storagemedium, such as, but not limited to, any type of disk including floppydisks, optical disks, CD-ROMs, and magnetic-optical disks, read-onlymemories (ROMs), random access memories (RAMs), EPROMs, EEPROMs,magnetic or optical cards, or any type of media suitable for storingelectronic instructions.

It is to be understood that the above description is intended to beillustrative, and not restrictive. Many other embodiments will beapparent to those of skill in the art upon reading and understanding theabove description. The scope of the invention should, therefore, bedetermined with reference to the appended claims, along with the fullscope of equivalents to which such claims are entitled.

What is claimed is:
 1. A method comprising: receiving first input of asearch term for a query, wherein the search term is related toequipment; identifying a key mapped to a first set of search termscomprising the search term, wherein the key corresponds to a firsttopic, and wherein each of a plurality of sets of default datacorresponds to a respective topic; responsive to determining that aresults page corresponding to the key was not stored, retrieving, fromone or more data stores, a results page template and default data thatcorrespond to the key, wherein the retrieving of the default datacomprises determining that the default data corresponds to the firsttopic, and wherein the plurality of sets of default data comprise thedefault data; obtaining structured data and unstructured data that areassociated with the equipment, wherein the structured data is obtainedfrom a data source storing the structured data, wherein the unstructureddata is obtained from a data source storing the unstructured data, andwherein the obtaining of the structured data and the unstructured datacomprises searching metadata to locate the key in first correspondingmetadata of the structured data and in second corresponding metadata ofthe unstructured data; and generating, by a processing device, theresults page corresponding to the key by populating the results pagetemplate with the default data and equipment related results for thequery, the equipment related results comprising the structured data thatis associated with the equipment and the unstructured data that isassociated with the equipment; and providing the results pagecorresponding to the key via a graphical user interface (GUI).
 2. Themethod of claim 1, wherein the default data comprises at least one of animage, a part number, a part name, a part description, a productidentifier, an equipment identifier, or a process name that correspondto the key, wherein each search term of the first set of search terms isa variation of the key.
 3. The method of claim 1, wherein a plurality ofresults page templates comprises the results page template, wherein eachof the plurality of results page templates corresponds to the respectivetopic, and wherein the retrieving of the results page template comprisesdetermining that the results page template corresponds to the firsttopic.
 4. The method of claim 1 further comprising: storing the resultspage for the key; receiving second input of a second search term for asecond query; determining the key is mapped to the second search term;accessing page tracking data to determine the results page has beenstored for the key; and retrieving the results page for the key from acorresponding page location.
 5. The method of claim 4, wherein the pagetracking data comprises a list of page identifiers, corresponding keys,and corresponding page locations comprising the corresponding pagelocation.
 6. The method of claim 1, further comprising: receiving userinput to change at least a portion of the equipment related results inthe results page, the user input comprising user-provided content;classifying the user-provided content based on the results page; storingthe user-provided content in the data source storing the structured dataor in the data source storing the unstructured data; and changing the atleast a portion of the equipment related results in the results page todisplay the user input in the results page.
 7. A non-transitorycomputer-readable storage medium including instructions that, whenexecuted by a processing device, cause the processing device to performoperations comprising: receiving first input of a search term for aquery, wherein the search term is related to equipment; identifying akey mapped to a first set of search terms comprising the search term,wherein the key corresponds to a first topic, and wherein each of aplurality of sets of default data corresponds to a respective topic;responsive to determining that a results page corresponding to the keywas not stored, retrieving, from one or more data stores, a results pagetemplate and default data that correspond to the key, wherein theretrieving of the default data comprises determining that the defaultdata corresponds to the first topic, and wherein the plurality of setsof default data comprise the default data; obtaining structured data andunstructured data that are associated with the equipment, wherein thestructured data is obtained from a data source storing the structureddata, wherein the unstructured data is obtained from a data sourcestoring the unstructured data, and wherein the obtaining of thestructured data and the unstructured data comprises searching metadatato locate the key in first corresponding metadata of the structured dataand in second corresponding metadata of the unstructured data; andgenerating, by the processing device, the results page corresponding tothe key by populating the results page template with the default dataand equipment related results for the query, the equipment relatedresults comprising the structured data that is associated with theequipment and the unstructured data that is associated with theequipment; and providing the results page corresponding to the key via agraphical user interface (GUI).
 8. The non-transitory computer-readablestorage medium of claim 7, wherein the default data comprises at leastone of an image, a part number, a part name, a part description, aproduct identifier, an equipment identifier, or a process name thatcorrespond to the key, wherein each search term of the first set ofsearch terms is a variation of the key.
 9. The non-transitorycomputer-readable storage medium of claim 7, wherein a plurality ofresults page templates comprises the results page template, wherein eachof the plurality of results page templates corresponds to the respectivetopic, and wherein the retrieving of the results page template comprisesdetermining that the results page template corresponds to the firsttopic.
 10. The non-transitory computer-readable storage medium of claim7, the operations further comprising: storing the results page for thekey; receiving second input of a second search term for a second query;determining the key is mapped to the second search term; accessing pagetracking data to determine the results page has been stored for the key;and retrieving the results page for the key from a corresponding pagelocation.
 11. The non-transitory computer-readable storage medium ofclaim 10, wherein the page tracking data comprises a list of pageidentifiers, corresponding keys, and corresponding page locationscomprising the corresponding page location.
 12. The non-transitorycomputer-readable storage medium of claim 7, the operations furthercomprising: receiving user input to change at least a portion of theequipment related results in the results page, the user input comprisinguser-provided content; classifying the user-provided content based onthe results page; storing the user-provided content in the data sourcestoring the structured data or in the data source storing theunstructured data; and changing the at least a portion of the equipmentrelated results in the results page to display the user input in theresults page.
 13. A system comprising: a memory to store a plurality ofkeys; and a processing device coupled to the memory to: receive firstinput of a search term for a query, wherein the search term is relatedto equipment; identify a key of the plurality of keys, the key beingmapped to a first set of search terms comprising the search term,wherein the key corresponds to a first topic, and wherein each of aplurality of sets of default data corresponds to a respective topic;responsive to determining that a results page corresponding to the keywas not stored, retrieve, from one or more data stores, a results pagetemplate and default data that correspond to the key, wherein toretrieve the default data, the processing device is to determine thatthe default data corresponds to the first topic, and wherein theplurality of sets of default data comprise the default data; obtainstructured data and unstructured data that are associated with theequipment, wherein the structured data is obtained from a data sourcestoring the structured data, wherein the unstructured data is obtainedfrom a data source storing the unstructured data, and wherein to obtainthe structured data and the unstructured data, the processing device isto search metadata to locate the key in first corresponding metadata ofthe structured data and in second corresponding metadata of theunstructured data; and generate, by the processing device, the resultspage corresponding to the key by populating the results page templatewith the default data and equipment related results for the query, theequipment related results comprising the structured data that isassociated with the equipment and the unstructured data that isassociated with the equipment; and provide the results pagecorresponding to the key via a graphical user interface (GUI).
 14. Thesystem of claim 13, wherein the default data comprises at least one ofan image, a part number, a part name, a part description, a productidentifier, an equipment identifier, or a process name that correspondto the key, wherein each search term of the first set of search terms isa variation of the key.
 15. The system of claim 13, wherein a pluralityof results page templates comprises the results page template, whereineach of the plurality of results page templates corresponds to a topic,and wherein to retrieve the results page template, the processing deviceis to determine the results page template corresponds to the firsttopic.
 16. The system of claim 13, wherein the processing device isfurther to: store the results page for the key; receive second input ofa second search term for a second query; determine the key is mapped tothe second search term; access page tracking data to determine theresults page has been stored for the key; and retrieve the results pagefor the key from a corresponding page location, wherein the pagetracking data comprises a list of page identifiers, corresponding keys,and corresponding page locations comprising the corresponding pagelocation.
 17. The system of claim 13, wherein the processing device isfurther to: receive user input to change at least a portion of theequipment related results in the results page, the user input comprisinguser-provided content; classify the user-provided content based on theresults page; store the user-provided content in the data source storingthe structured data or in the data source storing the unstructured data;and change the at least a portion of the equipment related results inthe results page to display the user input in the results page.